阅读说明：本技术 棒状化妆品收纳容器 (Stick-shaped cosmetic container ) 是由 荒井启 平川昌志 于 2019-01-17 设计创作，主要内容包括：本发明的棒状化妆品用收纳容器的特征在于,构成为具有：盘部件,所述盘部件保持棒状化妆品在下部具备卡合部；内筒部件,所述内筒部件具有供所述卡合部卡合的盘部件用导向槽,并且具有供设置于主体部件的旋转控制部卡合的主体部件用切割槽；所述主体部件,所述主体部件具备供所述卡合部卡合的引导槽,并且在所述主体部件的内周面具有与所述主体部件用切割槽卡合的所述旋转控制部；螺旋部件,所述螺旋部件在内周面形成有供所述卡合部卡合并且使盘部件在上下方向上移动的螺旋槽；以及底座部件,所述底座部件设置在所述主体部件的下端部,所述盘部件用导向槽形成为在其下部具有曲柄状的弯曲部,并且到达所述内筒部件的下端部,所述主体部件用切割槽在其下部具有在圆周方向上倾斜的倾斜部,若使所述螺旋部件旋转而使所述盘部件上升,则所述盘部件的卡合部与所述弯曲部抵接,所述内筒部件与所述盘部件同步上升,并且,当所述旋转控制部移动至所述倾斜部时,所述内筒部件借助所述倾斜部而沿圆周方向旋转,所述引导槽和所述盘部件用导向槽成为大致重叠的状态,由此仅所述盘部件上升。由此,得到组装容易且盘部件难以挠曲的棒状化妆品用收纳容器。(The present invention provides a stick-shaped cosmetic material storage container, comprising: a disk member that holds a stick-shaped cosmetic and that has an engaging portion at a lower portion; an inner cylinder member having a disk member guide groove into which the engagement portion is engaged, and a main body member cutting groove into which a rotation control portion provided in the main body member is engaged; the body member having a guide groove with which the engaging portion is engaged, and the rotation control portion engaged with the cut groove for the body member is provided on an inner circumferential surface of the body member; a spiral member having a spiral groove formed on an inner circumferential surface thereof, the spiral groove being engaged with the engaging portion and moving the disk member in a vertical direction; and a base member provided at a lower end portion of the main body member, wherein the disk member guide groove is formed to have a crank-shaped bent portion at a lower portion thereof and to reach a lower end portion of the inner cylinder member, wherein the main body member cutting groove has an inclined portion inclined in a circumferential direction at a lower portion thereof, and when the disk member is raised by rotating the screw member, the engaging portion of the disk member abuts against the bent portion, the inner cylinder member is raised in synchronization with the disk member, and when the rotation control portion moves to the inclined portion, the inner cylinder member is rotated in the circumferential direction by the inclined portion, and the guide groove and the disk member guide groove are substantially overlapped, whereby only the disk member is raised. Thus, the container for a stick-shaped cosmetic is easily assembled and the disk member is less likely to be bent.)

1. A stick-like cosmetic container characterized in that,

the stick-shaped cosmetic storage container is configured to include:

a disk member that holds a stick-shaped cosmetic and that has an engagement portion at a lower portion; an inner cylinder member having a disk member guide groove into which the engagement portion is engaged, and a main body member cutting groove into which a rotation control portion provided in the main body member is engaged; the body member having a guide groove with which the engaging portion is engaged, and the rotation control portion engaged with the cut groove for the body member is provided on an inner circumferential surface of the body member; a spiral member having a spiral groove formed on an inner circumferential surface thereof, the spiral groove being engaged with the engaging portion and moving the disk member in a vertical direction; and a base member provided at a lower end portion of the main body member,

the disk member guide groove is formed to have a crank-shaped bent portion at a lower portion thereof and to reach a lower end portion of the inner cylinder member, the main body member cutting groove has a slope portion inclined in a circumferential direction at a lower portion thereof, when the spiral member is rotated to raise the disk member, the engaging portion of the disk member abuts against the bent portion, the inner cylinder member and the disk member are raised in synchronization, and when the rotation control portion moves to the slope portion, the inner cylinder member is rotated in the circumferential direction by the slope portion, and the guide groove and the disk member guide groove are brought into a substantially overlapped state, whereby only the disk member is raised.

2. The stick-shaped cosmetic container according to claim 1, wherein,

the lid body is provided at an upper end portion of the main body member so as to be openable and closable, and is biased in a direction in which the lid is closed by a biasing member.

3. The stick-shaped cosmetic container according to claim 2, wherein,

the urging member is composed of a pair of locking pieces formed on the upper portion of the main body member and the lid body, and an annular elastic body locked to the pair of locking pieces.

4. The stick-shaped cosmetic container according to any one of claims 1 to 3, wherein the container further comprises a lid,

and an anti-skid mechanism is arranged on the surface of the spiral component.

5. The stick-shaped cosmetic container according to any one of claims 1 to 4, wherein the container further comprises a lid,

the main body member cut groove is formed with an engagement portion extending further in a circumferential direction from a lower end portion of the inclined portion, and the rotation control portion enters the engagement portion when the disk member is raised.

Technical Field

The present invention relates to a stick-shaped cosmetic storage container for holding a stick-shaped cosmetic such as lipstick.

Background

Conventionally, as a stick-type cosmetic storage container in which an inner tube member is raised and thereafter a tray member is raised to expose a stick-type cosmetic, there has been known a stick-type cosmetic storage container or the like in which "a stick-type cosmetic storage container that telescopically stores a stick-type cosmetic is provided with: a receiving tray that holds a lower portion of the stick type cosmetic; a sleeve which houses the receiving tray so as to be slidable in the vertical direction and which accommodates at least an upper end portion of the stick-shaped cosmetic; a middle cylinder which houses the sleeve in a manner of freely sliding in the vertical direction and has an opening at the upper end; an outer cylinder externally fitted to the inner cylinder so as to be rotatable in the circumferential direction while suppressing sliding in the axial direction; a cover openably and closably attached to an opening end of the middle tube; and an elevating mechanism for rotating the middle barrel or the outer barrel with respect to the outer barrel or the middle barrel, feeding the sleeve from the opening part before the stick-shaped cosmetic, opening the cover by a front end thereof, and finally feeding the sleeve and the stick-shaped cosmetic to a position protruding from the opening part of the middle barrel, wherein the elevating mechanism comprises a first protruding member protruding from an outer surface of a barrel wall of the receiving tray, a first guide groove axially penetrating the sleeve along the barrel wall, and a second protruding member protruding from the outer surface of the barrel wall, a second guide groove axially penetrating the middle barrel in a manner overlapping with the first guide groove on the sleeve side, a cam groove axially penetrating the middle barrel in order to engage the second protruding member, and the cam groove on an inner surface of the barrel wall on the receiving tray side so as to simultaneously penetrate the first guide groove on the sleeve side and the second guide groove on the middle barrel side A spiral groove engraved so that a tip of a first projecting piece is engaged with the spiral groove, the cam groove has a guide portion provided to penetrate through the middle cylinder in an axial direction of the cylinder wall of the middle cylinder and a cam portion curved and continuous upward to one side in a circumferential direction of the cylinder wall at an upper end side of the guide portion, the first guide groove has an L portion provided continuously with a notch in a circumferential direction at a lower end portion, and the first projecting piece of the receiving tray is engaged with the L portion when the stick-shaped cosmetic is received (patent document 1).

However, the known invention described in patent document 1 has a notch so as to face the lower portion of the receiving tray for assembly, and therefore, the rigidity of the receiving tray is reduced, the receiving tray is easily bent, and the first projecting piece of the receiving tray comes off the spiral groove, and the stick-shaped cosmetic cannot be fed out one by one.

Further, the stick type cosmetic has a disadvantage that the stick type cosmetic is broken inside the receiving tray due to the influence of the deflection of the receiving tray.

Disclosure of Invention

Problems to be solved by the invention

In view of the above-described conventional drawbacks, an object of the present invention is to provide a stick-shaped cosmetic storage container that is easy to assemble and in which a disk member is difficult to bend.

Means for solving the problems

In order to achieve the above object, a stick type cosmetic container according to claim 1 of the present invention is a stick type cosmetic container including: a disk member that holds a stick-shaped cosmetic and that has an engaging portion at a lower portion; an inner cylinder member having a disk member guide groove into which the engagement portion is engaged, and a main body member cutting groove into which a rotation control portion provided in the main body member is engaged; the body member having a guide groove with which the engaging portion is engaged, and the rotation control portion engaged with the cut groove for the body member is provided on an inner circumferential surface of the body member; a spiral member having a spiral groove formed on an inner circumferential surface thereof, the spiral groove being engaged with the engaging portion and moving the disk member in a vertical direction; and a base member provided at a lower end portion of the main body member, wherein the disk member guide groove is formed to have a crank-shaped bent portion at a lower portion thereof and to reach a lower end portion of the inner cylinder member, wherein the main body member cutting groove has an inclined portion inclined in a circumferential direction at a lower portion thereof, and when the disk member is raised by rotating the screw member, the engaging portion of the disk member abuts against the bent portion, the inner cylinder member is raised in synchronization with the disk member, and when the rotation control portion moves to the inclined portion, the inner cylinder member is rotated in the circumferential direction by the inclined portion, and the guide groove and the disk member guide groove are substantially overlapped, whereby only the disk member is raised.

The stick-shaped cosmetic storage container according to claim 2 is characterized in that a lid body that can be opened and closed is provided at an upper end portion of the main body member, and the lid body is biased in a direction in which the lid is closed by a biasing member.

The stick-shaped cosmetic storage container according to claim 3 is characterized in that the biasing member is composed of a pair of locking pieces formed on the upper portion of the main body member and the lid body, and an annular elastic body locked to the pair of locking pieces.

The stick-shaped cosmetic storage container according to claim 4 is characterized in that an anti-slip mechanism is provided on a surface of the screw member.

The stick-shaped cosmetic storage container according to claim 5 is characterized in that a locking portion extending from a lower end portion of the inclined portion in a circumferential direction is formed in the cut groove for the main body member, and the rotation control portion enters the locking portion when the disk member is raised.

ADVANTAGEOUS EFFECTS OF INVENTION

As is clear from the above description, the following effects can be obtained in the present invention.

(1) In the invention described in claim 1, since the inner cylindrical member is formed with the disk member guide groove having the crank-shaped bent portion whose lower end portion reaches the lower end portion of the inner cylindrical member, the engagement portion of the disk member can be easily engaged (inserted) into the disk member guide groove.

Therefore, the assembly can be easily performed.

(2) Since the engaging portion of the disk member can be inserted from the lower end portion of the disk member guide groove, it is not necessary to form a notch or the like in the disk member, and the rigidity of the disk member can be ensured, and the disk member can be made difficult to bend.

Therefore, the stick cosmetic can be held without being affected by the deflection of the disk member.

(3) The inventions according to claim 2 and claim 3 also provide the same effects as those of (1) and (2).

(4) The invention described in claim 4 can also obtain the same effects as those in (1) and (2) above, and can easily rotate the screw member.

(5) The invention described in claim 5 can also obtain the same effects as those in the above (1) to (4), and since the locking portion extending in the circumferential direction from the lower end portion of the inclined portion of the main body member cut groove is provided, even when a load is applied downward from the upper portion after the disk member is moved to the vicinity of the top dead center, the rotation control portion comes into contact with the locking portion, and the rotation control portion moves to the inclined portion to rotate the inner cylinder member, and the action pin can be prevented from being pinched and deteriorating.

Drawings

Fig. 1 to 10 are explanatory views showing a first embodiment of the present invention.

Fig. 11 and 12 are explanatory views showing a second embodiment of the present invention.

Fig. 13 and 14 are explanatory views showing a third embodiment of the present invention.

Fig. 15 to 20 are explanatory views showing a fourth embodiment of the present invention.

Fig. 1 is a longitudinal sectional view of a stick-shaped cosmetic storage container according to a first embodiment.

Fig. 2 is a front view of the disc member.

FIG. 3 is a front view of the inner barrel assembly.

FIG. 4 is a rear view of the inner barrel assembly.

Fig. 5 is a front view of the body member.

Figure 6 is a longitudinal cross-sectional view of the body member.

Fig. 7 is an exploded perspective view of the disk member, the inner cylinder member, and the main body member.

Fig. 8 is an explanatory view of the urging member.

Fig. 9 is an explanatory diagram of a state where the inner cylinder member is raised to the top dead center.

Fig. 10 is an explanatory diagram of a state where the disk member is raised to the top dead center.

Fig. 11 is a longitudinal sectional view of the stick-shaped cosmetic storage container according to the second embodiment.

Fig. 12 is an explanatory view of the urging member.

Fig. 13 is a longitudinal sectional view of a stick-shaped cosmetic storage container according to a third embodiment.

Fig. 14 is a front view of the stick type cosmetic container.

Fig. 15 is a longitudinal sectional view of the storage container according to the fourth embodiment.

FIG. 16 is a front view of the inner barrel assembly.

FIG. 17 is a rear view of the inner barrel assembly.

Fig. 18 is an exploded perspective view of the disk member, inner cylinder member, and main body member.

Fig. 19 is an explanatory diagram of a state where the inner cylinder member is raised to the top dead center.

Fig. 20 is an explanatory diagram of a state where the disk member is raised to the top dead center.

Description of the reference numerals

1. 1A, 1B, 1C: stick-shaped cosmetic storage container, 2: stick cosmetic, 3: an engaging portion,

4: disk member, 5A: guide groove for disk member, 6: body member, 7A: main body member cutting groove, 8A: inner tube member, 9: guide groove, 10: rotation control unit, 11: a spiral groove,

12. 12A: screw member, 13A: base member, 14: lid, 15: a partition wall,

16: stick-shaped cosmetic holder, 17A: bending section, 18: inclined portion, 19: a crank part,

20: cover body mounting portion, 21: one card sheet, 22: mounting piece, 23: shaft, 24: other locking piece, 25A: urging member, 26: elastomer, 27: an arm insertion hole,

28: torsion spring, 29: antiskid mechanism, 30: locking part, 31: an inclined part for the disk member.

Detailed Description

The present invention will be described in detail below with reference to the drawings for carrying out the invention.

In a first embodiment for carrying out the present invention shown in fig. 1 to 10, reference numeral 1 denotes a stick cosmetic container (hereinafter, referred to as "container") for containing a stick cosmetic 2 such as lipstick of the present invention.

As shown in fig. 1, for example, the storage container 1 is composed of: a disk member 4 that holds the stick type cosmetic 2 and has an engaging portion 3 (e.g., an engaging pin) at a lower portion thereof; an inner cylinder member 8, the inner cylinder member 8 having a disk member guide groove 5 into which the engagement portion 3 of the disk member 4 is engaged (inserted), and having a main body member notch groove 7 into which a rotation control portion 10 (for example, a rotation control pin) of the main body member 6 is engaged (inserted); a main body member 6 having a guide groove 9 into which the engaging portion 3 of the disk member 4 is engaged (inserted), and a rotation control portion 10 on an inner peripheral surface thereof that is engaged (inserted) with the main body member notch groove 7; a screw member 12 having a spiral groove 11 formed on an inner peripheral surface thereof, into which the engaging portion 3 of the disk member 4 is inserted, and configured to move the disk member 4 in the vertical direction; a base member 13, the base member 13 being provided at a lower end portion of the main body member 6; and a lid 14, the lid 14 being provided at an upper end portion of the main body member 6.

As shown in fig. 2, in the present embodiment, the disk member 4 is made of resin and formed in a cylindrical shape, and a substantially horizontal partition wall 15 is provided in a portion near an upper end portion of the inside. The upper space of the partition 15 serves as a stick-shaped cosmetic holder 16 for holding the stick-shaped cosmetic 2.

The engaging portion 3 is provided near the lower end of the outer peripheral wall of the disk member 4. In the present embodiment, the engaging portion 3 is a substantially cylindrical protrusion.

As shown in fig. 3 and 4, in the present embodiment, the inner cylindrical member 8 is a tubular member made of metal and covering the outer peripheral portion of the disk member 4. The inner cylindrical member 8 is a substantially cylindrical member having a cutout formed with an upper portion inclined, and has a disk member guide groove 5 and a main body member notch groove 7 formed in side surfaces thereof.

The upper end portion of the vertical portion 5a of the disk member guide groove 5 is located at a substantially middle portion in the vertical direction of the inner cylindrical member 8, a crank-shaped bent portion 17 having a horizontal portion 17a is formed near the lower end portion of the inner cylindrical member 8, and the lower end portion of the disk member guide groove 5 is formed to reach the lower end portion of the inner cylindrical member 8.

By forming the disk member guide groove 5 in this manner, when the engagement portion 3 of the disk member 4 is engaged with the disk member guide groove 5, the engagement portion 3 can be engaged from the lower end portion of the disk member guide groove 5 (the slit of the inner cylinder member 8), the disk member 4 and the inner cylinder member 8 do not need to be bent, assembly can be easily performed, and the rigidity of the disk member 4 can be ensured without providing a notch or the like in the disk member 4.

Further, since the lower end portion of the disk member guide groove 5 reaches the lower end portion (lower end surface) of the inner cylindrical member 8 and a part of the outer periphery of the inner cylindrical member 8 is notched, when the inner cylindrical member 8 is inserted into the main body member 6, the lower portion of the inner cylindrical member 8 is bent to be reduced in diameter, and the rotation control portion 10 can be inserted into the main body member notch groove 7.

The disk member guide groove 5 includes, for example, a crank-shaped bent portion 17, and the bent portion 17 is formed such that the engagement portion 3 is positioned at the horizontal portion 17a of the bent portion 17 in a normal state (when the stick cosmetic 2 and the disk member 4 are positioned at the lower limit position).

In the description of the present embodiment, the main body member cut groove 7 is provided at a position facing the disk member guide groove 5, and an upper end portion is located above an upper end portion of the disk member guide groove 5 at a substantially middle portion in the vertical direction of the inner tubular member 8, and extends substantially vertically downward, and an inclined portion 18 inclined in the circumferential direction is formed at a lower portion, and a lower end portion is formed in the vicinity of the horizontal portion 17a of the above-described bent portion 17.

In the description of the present embodiment, the rotation control portion 10 is inserted into the main body member notch 7, and the rotation control portion 10 is located in the vicinity of the substantially end portion of the main body member notch 7 in the normal state.

As shown in fig. 5 and 6, in the present embodiment, the main body member 6 is made of resin and covers the outer periphery of the inner cylindrical member 8.

For example, as shown in fig. 5, the main body member 6 is formed in a substantially cylindrical shape having a slightly larger upper portion, and a guide groove 9 reaching a lower end portion of the main body member 6 is formed in an outer peripheral portion thereof. In the present embodiment, the guide groove 9 has a crank portion 19 bent in a crank shape at a lower portion thereof. The lower end of the guide groove 9 (crank portion 19) reaches the lower end surface of the main body member 6, and can be inserted into the engagement portion 3 of the disk member 4 through the slit.

Since the lower end surface of the guide groove 9 reaches the lower end of the main body member 6 and the lower end of the disk member guide groove 5 of the inner cylinder member 8 also reaches the lower end of the inner cylinder member 8, the rotation control section 10 is easily inserted into the main body member notch groove 7 by flexing the main body member 6 in a direction in which the inner diameter is slightly expanded and flexing the inner cylinder member 8 in a direction in which the outer diameter is slightly narrowed.

In addition, a lid attachment portion 20 for attaching the lid 14 is formed in a large diameter portion of the upper portion of the main body member 6. In the present embodiment, one locking piece 21 is provided near the cover attachment portion 20 on the upper portion of the main body member 6.

In the description of the present embodiment, the screw member 12 is formed in a stepped cylindrical shape having a small outer diameter at a lower portion, and the spiral groove 11 is formed on an inner peripheral surface thereof. The screw member 12 covers the outer periphery of the main body member 6 except for the large diameter portion.

The engagement portion 3 of the disk member 4 is inserted into the spiral groove 11, and by rotating the spiral member 12, the engagement portion 3 is pushed up by the spiral groove 11, and the disk member 4 is lifted upward.

In the description of the present embodiment, the base member 13 is formed in a bottomed cylindrical shape, and is attached in a state where the lower end portion of the main body member 6 is inserted into the base member 13. The outer periphery of the small diameter portion of the lower portion of the screw member 12 is covered by the upper portion of the base member 13.

By providing the base member 13, even if the lower portion of the body member 6 is notched by the guide groove 9, the body member 6 can be suppressed from being deflected.

The lid 14 is made of resin, and is formed with a mounting piece 22 mounted to the lid mounting portion 20, and the mounting piece 22 is rotatably supported by the lid mounting portion 20 via a shaft 23. The lid 14 rotates about the shaft 23 to open and close the opening in the upper portion of the main body member 6.

Further, on the bottom surface of the lid 14 near the attachment piece 22, the other locking piece 24 is formed to be paired with the one locking piece 21. In the present embodiment, as shown in fig. 8, the biasing member 25 that biases in the direction to close the lid body 14 is composed of the pair of locking pieces 21, 24 and the annular elastic body 26 locked to the pair of locking pieces 21, 24. The elastic body 26 is elongated when the lid 14 is opened, and applies a force to the lid in the closing direction.

The operations of the disk member 4, the inner cylinder member 8, and the main body member 6 when the storage container 1 of the present invention is used will be described. Since the engaging portion 3 of the disk member 4 is positioned at the horizontal portion 17a of the bent portion 17 of the disk member guide groove 5 and the rotation control portion 10 is inserted into the main body member cut groove 7 at the position where the engaging portion 3 is positioned at the bottom dead center, the inner cylinder member 8 does not rotate with respect to the main body member 6 and the engaging portion 3 of the disk member 4 is not moved from the horizontal portion 17 a.

By rotating the screw member 12, as shown in fig. 9, the engagement portion 3 of the disk member 4 is lifted along the spiral groove 11, and the disk member 4 is lifted up. At this time, the engaging portion 3 of the disk member 4 is inserted into the guide groove 9 of the main body member 6, and therefore moves upward without rotating.

Further, since the engaging portion 3 of the disk member 4 abuts on the horizontal portion 17a of the bent portion 17 of the inner cylindrical member 8, the disk member 4 pushes up the inner cylindrical member 8, and the disk member 4 and the inner cylindrical member 8 are lifted in synchronization. The inner cylindrical member 8 is pushed up only by the engaging portion 3, and the rotation control portion 10 of the main body member 6 is inserted into the main body member notch 7, and therefore, moves upward without rotating.

At this time, the inner cylinder member 8 pushes up the lid 14 to open the upper end of the main body member 6.

When the screw member 12 is rotated continuously in this state and the rotation control unit 10 moves to the inclined portion 18 of the main body member notch 7, the rotation control unit 10 enters the inclined portion 18 of the inner cylindrical member 8, and the inner cylindrical member 8 slightly rotates to reach the top dead center.

Thus, the inner cylinder member 8 stops rising, and the vertical portion 9a of the guide groove 9 and the vertical portion 5a of the disk member guide groove 5 substantially overlap each other. Accordingly, the engaging portion 3 of the disk member 4 moves from the horizontal portion 17a of the bent portion 17 to the lower end portion (bottom dead center) of the vertical portion 5a of the disk member guide groove 5.

As described above, when the inner cylindrical member 8 and the disk member 4 move upward in synchronization, the lid 14 is pressed by the upper end portion of the inner cylindrical member 8, and the lid 14 rotates against the urging force of the urging member 25 to be in the open state, and in the state where the inner cylindrical member 8 is positioned at the top dead center, the lid 14 abuts against the outer peripheral surface of the inner cylindrical member 8, and the open state is maintained without affecting the stick cosmetic 2.

By rotating the screw member 12 in this state, the inner cylinder member 8 stays at this position, and only the disk member 4 is lifted, and as shown in fig. 10, the stick cosmetic 2 is exposed.

After use, when the stick cosmetic 2 is stored, the screw member 12 is rotated in the reverse direction to lower the disk member 4. When the engaging portion 3 of the disk member 4 reaches the lower end portion (bent portion 17) of the vertical portion 5a of the disk member guide groove 5, the inner cylinder member 8 is pressed downward by the engaging portion 3, and the inner cylinder member 8 starts moving downward in synchronization with the disk member 4. Then, the inner cylinder member 8 is rotated by the inclined portion 18 of the main body member notch groove 7, and thereafter, is moved to the lower limit position without being rotated, and is returned to the normal state.

When the inner cylindrical member 8 enters the main body member 6, the lid 14 is rotated by the biasing member 25 to close the upper opening of the main body member 6.

[ different modes for carrying out the invention ]

Next, different modes for carrying out the present invention shown in fig. 11 to 20 will be described. In the description of the different embodiments for carrying out the present invention, the same components as those of the first embodiment for carrying out the present invention are denoted by the same reference numerals, and redundant description thereof is omitted.

The second embodiment for carrying out the present invention shown in fig. 11 and 12 is mainly different from the first embodiment for carrying out the present invention in that: the biasing member 25A for biasing the lid body 14 is constituted by a pair of arm insertion holes 27 formed in the lid body 14 and the body member 6, and a torsion spring 28 into which the arms are inserted into the pair of arm insertion holes 27 and which is pivotally supported by the shaft 23, and the same operational effects as those of the storage container according to the first embodiment for carrying out the present invention can be obtained even when the storage container 1A is constituted by such a biasing member 25A.

The third embodiment for carrying out the present invention shown in fig. 13 and 14 is mainly different from the first embodiment for carrying out the present invention in that: even if the storage container 1B is configured by using the base member 13A in which the length of the portion exposed to the outside is made longer and the screw member 12A in which the length exposed to the outside is made shorter and the anti-slip mechanism 29 is provided on the surface exposed to the outside, the same operational effects as those of the storage container of the first embodiment for carrying out the present invention can be obtained, and the screw member 12A can be rotated with the fingers while the base member 13A is stored in the palm of the hand, and the operation can be easily performed with one hand.

Further, by providing the anti-slip mechanism 29, the screw member 12A can be easily rotated even with one hand.

That is, the operation of feeding, opening and closing (clicking) can be performed with one hand, and the use is easier.

Further, the antiskid mechanism 29 is provided with a member having a knurled parallel arrangement (hereinafter, referred to as a mesh shape) in the present embodiment, but a knurled textured pattern, decoration, carving, coating that is hard to slide, or the like may be applied as the antiskid mechanism 29, for example.

The anti-slip mechanism 29 may be provided in the storage containers according to the first and second embodiments.

The fourth embodiment for carrying out the present invention shown in fig. 15 to 20 is mainly different from the first embodiment for carrying out the present invention in that: even if the storage container 1C is configured such that the inner cylinder member 8A is formed with the cut groove 7A for the main body member having the locking portion 30 extending from the lower end portion of the inclined portion 18 further in the circumferential direction so as to be continuous with the inclined portion 18 and the guide groove 5A for the disk member having the bent portion 17A formed with the inclined portion 31 for the disk member so as to be continuous with the horizontal portion 17A, the same operational effects as those of the storage container of the first embodiment for carrying out the present invention can be obtained. In addition, the guide groove 9 of the present embodiment is preferably formed such that the lower end thereof reaches the lower ends of the inner cylindrical member 8A and the main body member 6. By forming in this way, the engaging portion 3 can be easily inserted into the disk member guide groove 5A and the guide groove 9.

Since the locking portion 30 extending substantially horizontally in the circumferential direction from the lower end portion of the inclined portion 18 of the body member cut groove 7A is formed, the rotation control portion 10 in a protruding shape enters the locking portion 30 by the action of the inclined portion 31 for a disk member when the disk member 4 is raised, and therefore, even if a force is applied to the inner tube member 8A or the like from above in a state where the rotation control portion 10 enters the locking portion 30, the locking portion 30 can receive the load, and the rotation control portion 10 can be prevented from entering the inclined portion 18.

Therefore, the inner cylinder member 8A rotates along the inclined portion 18, and the rotation control portion 10 is sandwiched between the disk member guide groove 5A and the guide groove 9, thereby preventing interference with the vertical movement of the rotation control portion 10.

In the present embodiment, the same biasing member 25A as that of the second embodiment is used.

The operation of the disk member 4, the inner tube member 8A, the main body member 6, and the like when the storage container 1C is used will be described. Since the engaging portion 3 of the disk member 4 is positioned at the horizontal portion 17A of the bent portion 17 of the disk member guide groove 5A and the rotation control portion 10 is inserted into the main body member cut groove 7A at the position where the engaging portion 3 is positioned at the bottom dead center, the inner cylinder member 8A does not rotate with respect to the main body member 6, and the engaging portion 3 of the disk member 4 is not moved from the horizontal portion 17A.

By rotating the screw member 12, the engaging portion 3 of the disk member 4 is lifted along the spiral groove 11, and the disk member 4 is lifted up. At this time, the engaging portion 3 of the disk member 4 is inserted into the guide groove 9 of the main body member 6, and therefore moves upward without rotating.

Further, since the engaging portion 3 of the disk member 4 abuts on the horizontal portion 17a of the bent portion 17 of the inner tube member 8A, the disk member 4 pushes up the inner tube member 8A, and the disk member 4 and the inner tube member 8A are lifted in synchronization. The inner cylindrical member 8A is pushed up only by the engaging portion 3, and the rotation control portion 10 of the main body member 6 is inserted into the main body member notch 7A, and therefore moves upward without rotating.

At this time, the inner cylinder member 8A pushes up the lid 14 to open the upper end of the main body member 6.

When the screw member 12 is rotated further in this state and the rotation control unit 10 moves to the inclined portion 18 of the main body member notch 7A, the rotation control unit 10 enters the inclined portion 18 of the inner cylindrical member 8A, and the inner cylindrical member 8A slightly rotates to reach the top dead center of the inner cylindrical member 8A.

Thus, the inner cylinder member 8A stops rising, and the vertical portion 9a of the guide groove 9 and the vertical portion 5A of the disk member guide groove 5A substantially overlap. Accordingly, the engaging portion 3 of the disk member 4 moves from the horizontal portion 17A of the bent portion 17A to the lower end portion (bottom dead center) of the vertical portion 5A of the disk member guide groove 5A.

As described above, when the inner cylindrical member 8A moves upward in synchronization with the disk member 4, the lid 14 is pressed by the upper end portion of the inner cylindrical member 8A, and the lid 14 rotates against the urging force of the urging member 25A to be in the open state, and in the state where the inner cylindrical member 8A is positioned at the top dead center, the lid 14 abuts against the outer peripheral surface of the inner cylindrical member 8A, and the open state is maintained without affecting the stick type cosmetic 2.

By rotating the screw member 12 in this state, the inner cylinder member 8A stays at this position, and only the disk member 4 is lifted, and as shown in fig. 20, the stick cosmetic 2 is exposed.

When the disk member 4 rises to the vicinity of the top dead center, the engaging portion 3 enters the disk member inclined portion 31 formed in the disk member guide groove 5A, and the disk member 4 and the inner cylinder member 8A slightly rotate in the circumferential direction in accordance with this. Since the inner cylindrical member 8A cannot be moved further upward by the rotation control unit 10, it is rotated in the circumferential direction without accompanying the upward movement.

Then, the rotation control section 10 enters the locking section 30 extending in the circumferential direction from the lower end of the inclined section 18, and the rotation control section 10 and the locking section 30 are engaged with each other.

On the other hand, the engaging portion 3 also enters the horizontal portion 17A of the bent portion 17A, and the disk member 4 also reaches the top dead center.

In this state, even if a force is applied to the inner tubular member 8A or the like from above, the locking portion 30 and the rotation control portion 10 come into contact with each other in the vertical direction, and therefore the locking portion 30 can receive a load from above, and the rotation control portion 10 can be prevented from entering the inclined portion 18.

Therefore, the inner cylinder member 8A rotates along the inclined portion 18, and the rotation control portion 10 is sandwiched between the disk member guide groove 5 and the guide groove 9, thereby preventing the rotation control portion 10 from interfering with the vertical movement.

After use, when the stick cosmetic 2 is stored, the screw member 12 is rotated in the reverse direction to lower the disk member 4. When the engaging portion 3 of the disk member 4 reaches the lower end portion (horizontal portion 17a) of the vertical portion 5A of the disk member guide groove 5A, the inner cylinder member 8A is pressed downward by the engaging portion 3, and the inner cylinder member 8A starts moving downward in synchronization with the disk member 4. Then, the inner cylinder member 8A is rotated by the inclined portion 18 of the main body member notch groove 7A, and thereafter, is moved to the lower limit position without being rotated, and is returned to the normal state.

When the inner cylindrical member 8A enters the main body member 6, the lid 14 is rotated by the biasing member 25A to close the upper opening of the main body member 6.

Industrial applicability

The stick-shaped cosmetic storage container of the present invention is used in the field of manufacturing containers for storing solidified stick-shaped cosmetics such as lipstick, lip balm, eye shadow stick, blush stick, foundation stick, concealer, sunscreen cosmetic, eye cream, hair styling agent, and in the industry of the cosmetics field.